CN111935148A - Control method and device for data plane signaling message - Google Patents

Abstract

The invention discloses a method and a device for controlling a signaling message of a data plane, which are applied to a system comprising a service processing chip and a back plate chip, wherein the signaling message is acquired from a first service processing chip and is sent to the back plate chip, the signaling message comprises control information and message data, the service processing chip is a multi-core processor or a programmable chip, the chip information in the control information is acquired through the back plate chip, the signaling message is sent to a second service processing chip corresponding to the chip information, the message type information and the control instruction information in the control information are acquired through the second service processing chip, and the second service processing chip is controlled based on the message type information, the control instruction information and the message data, so that the response efficiency among the chips is improved, thereby reducing the loss of data packets.

Description

Control method and device for data plane signaling message

Technical Field

The present application relates to the field of computer communications technologies, and in particular, to a method and a device for controlling a data plane signaling packet.

Background

For a frame structure of network equipment, there are many different types of board cards, each type of board card has different characteristics and functions, and each board card is in different stages of service processing and may need strategy call; in addition, table entries between the boards also need to be synchronized.

In a traditional mode, each data panel card is required to apply to a main control board, the main control board issues control signaling and synchronous configuration, the process is subject to service chips, the service board card 1 controls a cpu, a base channel, a main control cpu, a base channel, the service board card 2 controls a cpu and the service board card 2 service chips, and is subject to multiple links in the middle to forward links including a pci link, a gigabit network port and the like, too much time is consumed when the control signaling is issued, and a large number of data packets can be lost in an environment of processing a service flow of hundreds of G or more.

Therefore, how to improve the response efficiency between chips and further reduce the loss of data packets is a technical problem to be solved at present.

Disclosure of Invention

The invention provides a control method of a data plane signaling message, which is applied to a system comprising a business processing chip and a backboard chip and is used for solving the technical problems that the response efficiency between the chips is low and the data package is easy to lose in the prior art, and the method comprises the following steps:

acquiring the signaling message from a first service processing chip, and sending the signaling message to the backplane chip, wherein the signaling message comprises control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip;

acquiring chip information in the control information through the back board chip, and sending the signaling message to a second service processing chip corresponding to the chip information;

acquiring message type information and control instruction information in the control information through the second service processing chip;

and controlling the second service processing chip based on the message type information, the control instruction information and the message data.

Preferably, before obtaining the signaling message from the first service processing chip and sending the signaling message to the backplane chip, the method further includes:

generating a message header of the signaling message based on the chip information, the message type information and the control instruction information, and using the message header as control information of the signaling message;

and generating the signaling message based on the control information and the message data.

Preferably, the controlling the second service processing chip based on the message type information, the control instruction information, and the message data specifically includes:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

Preferably, when the message type information is a control message, the second service processing chip is controlled based on the control instruction information and the message data, specifically:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

Preferably, when the control instruction information is a chip balancing instruction, performing chip balancing control on the second service processing chip based on the message data, specifically:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

Correspondingly, the present invention also provides a control device for data plane signaling messages, which is characterized in that the control device is applied to a system comprising a service processing chip and a backboard chip, and the device comprises:

the first acquisition module acquires the signaling message from a first service processing chip and sends the signaling message to the back panel chip, wherein the signaling message comprises control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip;

the second acquisition module acquires chip information in the control information through the backboard chip and sends the signaling message to a second service processing chip corresponding to the chip information;

the third acquisition module acquires the message type information and the control instruction information in the control information through the second service processing chip;

and the control module is used for controlling the second service processing chip based on the message type information, the control instruction information and the message data.

Preferably, the apparatus further comprises:

the first generation module generates a message header of the signaling message based on the chip information, the message type information and the control instruction information, and uses the message header as control information of the signaling message;

and the second generation module generates the signaling message based on the control information and the message data.

Preferably, the control module is specifically configured to:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

Preferably, the control module is specifically configured to:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

Preferably, the control module is specifically configured to:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

Compared with the prior art, the invention has the following beneficial effects:

the invention discloses a method and a device for controlling a signaling message of a data plane, which are applied to a system comprising a service processing chip and a back plate chip, wherein the signaling message is acquired from a first service processing chip and is sent to the back plate chip, the signaling message comprises control information and message data, the service processing chip is a multi-core processor or a programmable chip, the chip information in the control information is acquired through the back plate chip, the signaling message is sent to a second service processing chip corresponding to the chip information, the message type information and the control instruction information in the control information are acquired through the second service processing chip, and the second service processing chip is controlled based on the message type information, the control instruction information and the message data, so that the response efficiency among the chips is improved, thereby reducing the loss of data packets.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart illustrating a method for controlling a data plane signaling packet according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating another method for controlling a data plane signaling packet according to an embodiment of the present invention;

fig. 3 shows a schematic structural diagram of a control device for a data plane signaling packet according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1, the flow diagram of a method for controlling a data plane signaling message provided by the present invention is applied to a system including a service processing chip and a backplane chip, and the method includes the following steps:

s101, the signaling message is obtained from a first service processing chip and sent to the backboard chip, the signaling message comprises control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip.

Specifically, a first service processing chip acquires a signaling message, where the signaling message is a data unit that needs to be exchanged and transmitted in a network and carries a control circuit signal, where the acquired signaling message includes control information and message data, the control information is a control circuit signal, and the message data is data information that needs to be sent.

In order to accurately obtain a signaling message, in a preferred embodiment of the present application, before obtaining the signaling message from a first service processing chip and sending the signaling message to a backplane chip, the method further includes:

generating a message header of the signaling message based on the chip information, the message type information and the control instruction information, and using the message header as control information of the signaling message;

and generating the signaling message based on the control information and the message data.

Specifically, before the first service processing chip sends the acquired signaling message to the backplane chip, a private message header with a fixed format is added in front of each signaling message, where the message header is composed of chip information, message type information, and control instruction information, the chip information is used to indicate to which service chip unit the signaling message is specifically sent, where the service chip unit may be one or multiple, the message type information mainly includes common service information and signaling message information, and the control instruction information includes a control instruction for the service chip. After the message header is generated, the message header is used as the control information of the corresponding message signaling, the signaling message is generated according to the control information and the message data, and finally the signaling message is used as the signaling message to be sent.

It should be noted that the scheme of the above preferred embodiment is only a specific implementation scheme proposed in the present application, and other methods for generating the signaling packet based on the control information and the packet data all belong to the protection scope of the present invention.

S102, obtaining chip information in the control information through the backboard chip, and sending the signaling message to a second service processing chip corresponding to the chip information.

Specifically, the signaling message acquired by the backplane chip includes control information and message data, the backplane chip reads the chip information in the control information first, and since the chip information includes information specifically about to which chip the message information is sent, the signaling message can be sent to a second service processing chip corresponding to the chip information after the chip information is read, the second service processing chip is a service processing chip for receiving the signaling message sent by the backplane chip, and the second service processing chip can analyze a private message header carried in the signaling message, so that the application range is wider compared with that of a conventional chip.

And S103, acquiring the message type information and the control instruction information in the control information through the second service processing chip.

Specifically, the second service processing chip first obtains control information in the signaling message, that is, a message header of the signaling message, and then obtains message type information and control instruction information from the message header.

And S104, controlling the second service processing chip based on the message type information, the control instruction information and the message data.

Specifically, whether the obtained signaling message is a common service packet or a signaling message to be processed is determined according to the message type information, and then the second service processing chip is controlled according to different control instructions and by combining message data in the message signaling.

In order to accurately control the second service processing chip, in a preferred embodiment of the present application, the controlling the second service processing chip based on the message type information, the control instruction information, and the message data specifically includes:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

Specifically, the message types are divided into a common service message and a control message, the message types are determined after the message types are obtained, when the message type information is the common service message, only message data needs to be directly forwarded, and when the message type information is the control message, corresponding control needs to be performed on the second service processing chip according to different control instructions and by combining the message data.

It should be noted that the scheme of the above preferred embodiment is only a specific implementation scheme provided by the present application, and other methods for controlling the second service processing chip based on the message type information, the control instruction information, and the message data all belong to the protection scope of the present invention.

In order to accurately control the second service processing chip, in a preferred embodiment of the present application, when the message type information is a control message, the second service processing chip is controlled based on the control instruction information and the message data, specifically:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

Specifically, after the acquired message type information is a control message, corresponding processing needs to be performed on the second service processing chip by combining message data according to different control instructions, and when the control instruction information is a forwarding table updating instruction, data in a forwarding table of the second service processing chip is updated to data in the message data according to the read message data at this time, where the forwarding table is an electronic table stored in a router or a networked computer, and stores a path pointing to a specific network address, and it needs to be noted that the change of the forwarding table type does not affect the protection range of the application. When the control instruction information is a chip balancing instruction, the load of the first service processing chip is overlarge at the moment, the processing message is close to the upper limit, the signaling message needs to be sent to the second service processing chip for processing, and then the second service processing chip performs corresponding processing according to the specific balancing instruction and the message data at the moment, so that the purpose of decompressing the first service processing chip is achieved.

It should be noted that the scheme of the above preferred embodiment is only a specific implementation scheme proposed in the present application, and other methods for controlling the second service processing chip based on the control instruction information and the message data all belong to the protection scope of the present invention.

In order to accurately perform chip balance control on the second service processing chip, in the preferred embodiment of the present application,

when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data, specifically:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

Specifically, the hash algorithm to be updated is represented by a preset first value in the balancing instruction, and the hash factor to be updated is represented by a preset second value in the balancing instruction, so that when the chip balancing instruction is the preset first value, the hash algorithm of the second service processing chip is updated according to the message data, and when the chip balancing instruction is the preset second value, the hash factor of the second service processing chip is updated according to the message data.

It should be noted that the scheme of the above preferred embodiment is only a specific implementation scheme proposed in the present application, and other methods for performing chip balancing control on the second service processing chip based on the message data all belong to the protection scope of the present invention.

The invention discloses a control method of a data plane signaling message, which is applied to a system comprising a business processing chip and a backboard chip, and comprises the following steps: the method comprises the steps of obtaining a signaling message from a first service processing chip, sending the signaling message to a back plate chip, wherein the signaling message comprises control information and message data, the service processing chip is specifically a multi-core processor or a programmable chip, obtaining chip information in the control information through the back plate chip, sending the signaling message to a second service processing chip corresponding to the chip information, obtaining message type information and control instruction information in the control information through the second service processing chip, and controlling the second service processing chip based on the message type information, the control instruction information and the message data, so that response efficiency among the chips is improved, and loss of data packets is reduced.

In order to further illustrate the technical idea of the present invention, the technical solution of the present invention will now be described with reference to specific application scenarios.

Fig. 2 is a flowchart illustrating another method for controlling a data plane signaling packet according to an embodiment of the present invention, which includes the following steps:

s201, obtaining the signaling message from a first service processing chip, and sending the signaling message to the backplane chip, where the signaling message includes control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip.

Specifically, the first service processing chip acquires a signaling message, where the acquired signaling message includes control information and message data, the control information is a signal of a control circuit, the message data is data information to be sent, after the signaling message is acquired, the first service processing chip sends the signaling message to the backplane chip, the service processing chip may be a multi-core processor or a programmable chip, and the first service processing chip acquires the signaling message and forwards the signaling message to the backplane chip.

S202, obtaining chip information in the control information through the backboard chip, and sending the signaling message to a second service processing chip corresponding to the chip information.

Specifically, the signaling message acquired by the backplane chip includes control information and message data, the backplane chip reads chip information in the control information first, and since the chip information includes information that specifically sends the message information to which chip, the signaling message can be sent to a second service processing chip corresponding to the chip information after the chip information is read, for example, if the chip information is a certain programmable chip, the signaling message is sent to the programmable chip.

And S203, acquiring the message type information and the control instruction information in the control information through the second service processing chip.

Specifically, the second service processing chip first obtains control information in the signaling message, that is, a message header of the signaling message, and then obtains message type information and control instruction information from the message header, for example, the second service processing chip analyzes that the message type is 1, which indicates that the message type is a control packet, and the second service processing chip analyzes that the control instruction is 2, which indicates that the control instruction is an update forwarding table.

S204, judging whether the control instruction information is a forwarding table updating instruction.

Specifically, it is determined whether the control instruction information is a forwarding table update instruction, if so, S205 is performed, and if not, S206 is performed.

S205, updating the forwarding table of the second service processing chip based on the message data.

Specifically, when the control instruction information is a forwarding table update instruction, the data in the forwarding table is updated to the corresponding data in the message data according to the message data, for example, when the control instruction is identified as 2, the control instruction indicates that the forwarding table is updated, and at this time, the editable chip updates the forwarding table according to the corresponding content in the message data.

S206, judging whether the chip balance instruction is a preset first value.

Specifically, it is determined whether the chip equalization command is a preset first value, if yes, S207 is performed, and if no, S208 is performed, where the preset first value is used to indicate whether the hash algorithm needs to be updated.

S207, updating the Hash algorithm of the editable chip based on the message data.

Specifically, when the chip balancing instruction is the preset first value, the hash algorithm of the editable chip is updated according to the message data, for example, the preset first value may be set to 3, and when the identification control instruction is 3, the editable chip indicates to update the hash algorithm, and at this time, the editable chip changes the selected hash algorithm according to the variable corresponding to the update.

And S208, judging whether the chip balance instruction is a preset second value or not.

Specifically, it is determined whether the chip equalization command is a preset second value, if yes, S209 is performed, and if no, S210 is performed, where the preset second value is used to indicate whether the hash factor needs to be updated.

S209, updating the hash factor of the editable chip based on the message data.

Specifically, when the chip balancing instruction is the preset second value, the hash factor of the editable chip is updated according to the message data, for example, the preset second value is set to 4, when the identification control instruction is 4, the hash factor is updated, and at this time, the editable chip updates the hash factor according to the corresponding content in the message data.

And S210, no processing is performed.

Specifically, when the editable chip does not receive the relevant control instruction, no processing is performed at this time.

By applying the technical scheme, the signaling message is acquired from a first service processing chip and is sent to the backboard chip, the signaling message comprises control information and message data, chip information in the control information is acquired through the backboard chip, the signaling message is sent to a second service processing chip corresponding to the chip information, message type information and control instruction information in the control information are acquired through the second service processing chip, whether the control instruction information is a forwarding table updating instruction or not is judged, when the control instruction information is the forwarding table updating instruction, a forwarding table of the second service processing chip is updated based on the message data, and when the chip balancing instruction is a preset first value, a hash algorithm of the second service processing chip is updated based on the message data, and when the chip balancing instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data, so that the response efficiency between the chips is improved, and the loss of data packets is reduced.

In order to achieve the above technical object, an embodiment of the present application further provides a control device for a data plane signaling packet, where as shown in fig. 3, the device includes:

the first obtaining module 301 obtains the signaling message from a first service processing chip, and sends the signaling message to the backplane chip, where the signaling message includes control information and message data;

a second obtaining module 302, configured to obtain chip information in the control information through the backplane chip, and send the signaling message to a second service processing chip corresponding to the chip information;

a third obtaining module 303, configured to obtain, by using the second service processing chip, message type information and control instruction information in the control information;

the control module 304 controls the second service processing chip based on the message type information, the control instruction information, and the message data.

In a specific application scenario of the present application, the apparatus further includes:

the first generation module generates a message header of the signaling message based on the chip information, the message type information and the control instruction information, and uses the message header as control information of the signaling message;

and the second generation module generates the signaling message based on the control information and the message data.

In a specific application scenario of the present application, the control module is specifically configured to:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

In a specific application scenario of the present application, the control module is specifically configured to:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

In a specific application scenario of the present application, the control module is specifically configured to:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A control method of data plane signaling message is applied to a system comprising a service processing chip and a backboard chip, and the method comprises the following steps:

acquiring the signaling message from a first service processing chip, and sending the signaling message to the backplane chip, wherein the signaling message comprises control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip;

acquiring chip information in the control information through the back board chip, and sending the signaling message to a second service processing chip corresponding to the chip information;

acquiring message type information and control instruction information in the control information through a second service processor;

and controlling the second service processing chip based on the message type information, the control instruction information and the message data.

2. The method of claim 1, wherein before obtaining the signaling message from the first service processing chip and sending the signaling message to the backplane chip, further comprising:

generating a message header of the signaling message based on the chip information, the message type information and the control instruction information, and using the message header as control information of the signaling message;

and generating the signaling message based on the control information and the message data.

3. The method according to claim 1, wherein controlling the second service processing chip based on the packet type information, the control instruction information, and the packet data specifically comprises:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

4. The method according to claim 3, wherein when the packet type information is a control packet, controlling the second service processing chip based on the control instruction information and the packet data specifically comprises:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

5. The method according to claim 4, wherein when the control instruction information is a chip balancing instruction, performing chip balancing control on the second service processing chip based on the message data, specifically:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

6. A control device of data plane signaling message is characterized in that the control device is applied to a system comprising a service processing chip and a backboard chip, and the device comprises:

the first acquisition module acquires the signaling message from a first service processing chip and sends the signaling message to the back panel chip, wherein the signaling message comprises control information and message data, and the service processing chip is specifically a multi-core processor or a programmable chip;

the second acquisition module acquires chip information in the control information through the backboard chip and sends the signaling message to a second service processing chip corresponding to the chip information;

the third acquisition module acquires the message type information and the control instruction information in the control information through the second service processing chip;

and the control module is used for controlling the second service processing chip based on the message type information, the control instruction information and the message data.

7. The apparatus of claim 6, wherein the apparatus further comprises:

the first generation module generates a message header of the signaling message based on the chip information, the message type information and the control instruction information, and uses the message header as control information of the signaling message;

and the second generation module generates the signaling message based on the control information and the message data.

8. The device of claim 6, wherein the control module is specifically configured to:

when the message type information is a common service message, directly forwarding the message information;

and when the message type information is a control message, controlling the second service processing chip based on the control instruction information and the message data.

9. The device of claim 8, wherein the control module is specifically configured to:

when the control instruction information is a forwarding table updating instruction, updating a forwarding table of the second service processing chip based on the message data;

and when the control instruction information is a chip equalization instruction, performing chip equalization control on the second service processing chip based on the message data.

10. The method of claim 9, wherein the control module is specifically configured to:

updating the hash algorithm of the second service processing chip based on the message data when the chip equalization instruction is a preset first value;

and when the chip equalization instruction is a preset second value, updating the hash factor of the second service processing chip based on the message data.

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